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Ionic bond is formed between rubidium and iodine, where rubidium donates its electron to iodine to complete its valence shell. Rubidium becomes a positively charged ion (cation) and iodine becomes a negatively charged ion (anion), resulting in the formation of an ionic compound, rubidium iodide.
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What type of bond forms between rubidium and iodine?
A ionic bond forms between rubidium and iodine. Rubidium, a metal, donates its electron to iodine, a nonmetal, resulting in the formation of positively charged rubidium ions and negatively charged iodine ions that are then attracted to each other.
What type of bond does rubidium and iodine have?
Rubidium and iodine form an ionic bond. Rubidium, a metal, donates an electron to iodine, a nonmetal, resulting in the transfer of electrons from rubidium to iodine to achieve stability. This forms the ionic compound rubidium iodide (RbI).
Is RbI ionic or covalent?
RbI (rubidium iodide) is an ionic compound because it is formed between a metal (rubidium) and a nonmetal (iodine). The attraction between the positively charged rubidium ion and the negatively charged iodide ion results in an ionic bond.
What kind of bond is formed between rubidium and oxygen?
Rubidium and oxygen typically form an ionic bond, where rubidium loses an electron to oxygen, resulting in the formation of rubidium cations and oxygen anions that are attracted to each other due to their opposite charges.
Do Rubidium and Chlorine bond?
Yes, rubidium and chlorine can bond together to form rubidium chloride. Rubidium will donate its valence electron to chlorine, resulting in the formation of an ionic bond between them.
What type of bond forms between rubidium and iodine?
A ionic bond forms between rubidium and iodine. Rubidium, a metal, donates its electron to iodine, a nonmetal, resulting in the formation of positively charged rubidium ions and negatively charged iodine ions that are then attracted to each other.
What type of bond does rubidium and iodine have?
Rubidium and iodine form an ionic bond. Rubidium, a metal, donates an electron to iodine, a nonmetal, resulting in the transfer of electrons from rubidium to iodine to achieve stability. This forms the ionic compound rubidium iodide (RbI).
Is RbI ionic or covalent?
RbI (rubidium iodide) is an ionic compound because it is formed between a metal (rubidium) and a nonmetal (iodine). The attraction between the positively charged rubidium ion and the negatively charged iodide ion results in an ionic bond.
What kind of bond is formed between fluoride and iodine?
A covalent bond is formed between fluoride and iodine. This bond involves sharing of electron pairs between the two atoms.
What type of bond is formed between phosphorus and iodine?
A covalent bond is formed between phosphorus and iodine. In this type of bond, the atoms share electrons to achieve a stable electron configuration.
What type of bond is formed between iodine and carbon?
Iodine and Carbon form a covalent bond. Moreover, this bond is nonpolar. Cheers, Caroline
What kind of bond is formed between rubidium and oxygen?
Rubidium and oxygen typically form an ionic bond, where rubidium loses an electron to oxygen, resulting in the formation of rubidium cations and oxygen anions that are attracted to each other due to their opposite charges.
What is the bond between H and I electrons?
Covalent bond is formed between the two atoms (hydrogen and iodine) in HI.
Do Rubidium and Chlorine bond?
Yes, rubidium and chlorine can bond together to form rubidium chloride. Rubidium will donate its valence electron to chlorine, resulting in the formation of an ionic bond between them.
When rubidium and oxygen share a pair of electrons what is the bond that is formed?
It forms an ionic bond.
What type of bond is Mgl2?
MgI2 is an ionic bond, formed between magnesium (Mg) and iodine (I) due to the transfer of electrons from magnesium to iodine, resulting in the formation of ions.
What type of bond is RbCl?
RbCl is an ionic bond, formed between the metal cation rubidium (Rb+) and the nonmetal anion chloride (Cl-). It involves the transfer of electrons from rubidium to chlorine to achieve a stable electron configuration.
